CN116214191A - Integrated stamping welding machine for anchor ear - Google Patents

Abstract

The invention relates to the field of hoop production, in particular to an integrated stamping and welding machine for hoops. The invention provides an integrated punching and welding machine for a hoop, which comprises a bottom frame, a table plate, a top plate, a supporting plate, an upper die, a lower die, a first cylinder, a transposition assembly, a feeding assembly, a welding assembly and the like. According to the invention, after the unshaped anchor ear is processed and molded, the screw rod is driven to rotate by the output shaft of the motor, so that the push plate is driven to move rightwards to push the anchor ear molded by pressing to a welding position, the anchor ear is not required to be manually conveyed to the next station, and the punching and welding are integrated.

Description

Integrated stamping welding machine for anchor ear

Technical Field

The invention relates to the field of hoop production, in particular to an integrated stamping and welding machine for hoops.

Background

The anchor ear is a fastener, is the component of holding or hooping another material with a material, and the anchor ear is fixed a material by screw connection after closing by two pieces of the same anchor ear about, and two halves anchor ear are semicircle ring-shaped about, and semicircle ring both ends outwards buckle, respectively form a mounting ear, in order to make the anchor ear stronger, strengthen toughness, can weld the reinforcing plate in the mounting ear department of anchor ear both sides generally.

Through retrieval, the patent with the publication number of CN210878214U discloses a hoop reinforcement fillet welding machine, which comprises a frame, wherein a fixing mechanism and a welding assembly are arranged on the frame; the fixing mechanism comprises a rotary table rotatably arranged on the frame, and two groups of hoop clamps are symmetrically arranged on the rotary table; the welding assembly comprises a welding gun and a moving mechanism for driving the welding gun to move; according to the invention, two groups of fixing mechanisms are arranged on the rotary table, so that the welding gun can perform manual material taking and material changing work on one group of anchor ear reinforcing angles while performing welding work on the other group of anchor ear reinforcing angles.

The above patent suffers from the following drawbacks: the hoop production of the hoop reinforcing rib automatic welding machine is that after hoop stamping forming, a worker carries the stamped hoop to the hoop reinforcing fillet welding machine, and the production mode of the hoop is divided into stamping and welding procedures during production, so that the production process is longer, and the yield is influenced.

Disclosure of Invention

In order to overcome the defect that the production is influenced by a production mode without integrating hoop stamping and welding procedures, the integrated stamping and welding machine for the hoops is provided.

The technical proposal is as follows: the utility model provides an integrated punching press welding machine that staple bolt was used, including the chassis, the table, the blowing board, the roof, the backup pad, chassis top left and right sides is connected with two tables, right side table top is connected with the blowing board, semicircular bulge has on the left table, open on the table on right side has the rectangle breach, both sides are connected with a plurality of backup pads around the chassis top, be connected with the roof between the backup pad of both sides, still including last mould, the bed die, first cylinder, the template, hold the subassembly, pushing component, transposition subassembly, material loading subassembly and welding component, the roof bottom is connected with the mould, both sides all are connected with first cylinder around the chassis, be connected with the bed die between the output shaft of the first cylinder of both sides, the template has all been placed to the bed die top left and right sides, the table bottom is provided with and holds the subassembly, table bottom one side is provided with the pushing component that is used for promoting the unshaped staple bolt, be provided with the transposition subassembly in the push pedal, be provided with on the chassis and be used for transporting the reinforcing plate to the welded material loading subassembly on the staple bolt, be provided with the welding component on the backup pad on the backing plate.

Further, hold the subassembly including the traveller, the sliding frame, the spliced pole, the connecting plate, the guide pillar, layer board and spring, the template bottom is connected with four travellers, four travellers pass the bed die and are connected with the sliding frame, be connected with the spliced pole between the sliding frame of left and right sides, table bottom left and right sides all is connected with the connecting plate, be connected with two guide pillars between the connecting plate of left and right sides, sliding connection has the layer board on two guide pillars, be connected with the spring between layer board and the connecting plate.

Further, the pushing assembly comprises a motor, a screw rod, a pushing block, a connecting block, a pushing plate and a linkage plate, the top of the table plate is slidably connected with the pushing plate, the bottom of the pushing plate is connected with the pushing block, the pushing block penetrates through a rectangular notch on the table plate, the bottom of the table plate is connected with the motor and the connecting block, the screw rod is connected with the connecting block in a rotating mode, the bottom of the table plate is slidably connected with the linkage plate, the linkage plate is fixedly connected with the pushing block, the screw rod is in threaded connection with the linkage plate, and the pushing block is in contact with the supporting plate.

Further, the transposition assembly comprises a slide bar and a guide sleeve, the guide sleeves are connected to the front side and the rear side of the push plate, the guide sleeves on the two sides are connected with the slide bar in a sliding mode, and a guide groove is formed in the slide bar.

Further, the material loading subassembly is including curb plate, loading board, rack, material loading piece, gear, grab material piece and feed box, and both sides all are connected with the curb plate around the chassis, and the curb plate top is connected with loading board and feed box, and the loading board top is provided with the rack, and the slide bar is connected with the loading board rotation, and the slide bar left end passes the loading board and is connected with the material loading piece, and material loading piece one side rotation is connected with the gear, and one side of gear is connected with grabs the material piece, gear and rack engagement.

Further, the welding assembly comprises a hanging plate, sliding rails and welding machines, the hanging plate is connected between the supporting plates on the front side and the rear side in a sliding mode, the sliding rails are connected on the left side and the right side of the bottom of the hanging plate, and the two welding machines are connected on the sliding rails on the two sides in a sliding mode.

Further, still including spacing subassembly, spacing subassembly including limiting plate, torsional spring and stopper, the template of both sides all is connected with the stopper in the side that keeps away from each other around, the last rotation of stopper is connected with the limiting plate, is connected with the torsional spring between stopper and the limiting plate.

Further, still including the storage subassembly, the storage subassembly including blowing board, pushing away flitch, second cylinder and material frame, the table top is connected with the blowing board, blowing board top sliding connection has the pushing away flitch, blowing board bottom is connected with the second cylinder, the output shaft of second cylinder is connected with the pushing away flitch, both sides all are connected with the material frame around the blowing board top.

The invention has the beneficial effects that:

1. according to the invention, the output shaft of the first air cylinder drives the lower die and the template to move upwards, the lower die and the template are driven to move upwards to be attached to the upper die for stamping, the unshaped anchor ear is processed and molded, the output shaft of the motor drives the screw rod to rotate, the screw rod rotates to drive the push plate to move rightwards to push the pressurizing-molded anchor ear to a welding position, manual carrying of the anchor ear to the next station is not needed for welding, and the stamping and welding are integrated.

2. According to the invention, the screw rod is driven to rotate by the output shaft of the motor, the guide sleeve is driven to move leftwards by the screw rod to rotate 180 degrees so as to grasp the reinforcing plate, the reinforcing plate is placed on the hoop when the output shaft of the motor reversely rotates, and the reinforcing plate is welded on the hoop by the welding machine, so that the manual carrying and welding are not required in the welding process, and the effect of saving the time and the physical strength of workers is achieved.

3. According to the invention, the blanking plate is pushed to move leftwards by the output shaft of the second cylinder to push the non-punched hoop out rightwards to the template, so that the non-punched hoop is not required to be placed between the dies by manpower when the non-punched hoop is punched, and the risk of injury of workers is reduced.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of parts such as a bottom plate supporting plate, an upper die, a lower die and the like.

FIG. 3 is a schematic view of a holding assembly of the present invention.

Fig. 4 is a schematic view of the holding and pushing assemblies of the present invention.

FIG. 5 is a schematic diagram of the push block, push plate and linkage plate components of the present invention.

FIG. 6 is a schematic view of the push block, push plate and hanger plate components of the present invention.

FIG. 7 is a schematic diagram of a indexing assembly and a loading assembly of the present invention.

Fig. 8 is a schematic diagram of a feeding assembly according to the present invention.

Fig. 9 is a schematic view of a welding assembly of the present invention.

Fig. 10 is a schematic view of a spacing assembly of the present invention.

Fig. 11 is an enlarged view of fig. 10 in accordance with the present invention.

FIG. 12 is a schematic view of a storage assembly of the present invention.

Fig. 13 is a schematic view of the blanking plate and the second cylinder part of the present invention.

Reference numerals: 1_chassis, 11_table, 2_top plate, 21_support plate, 3_upper die, 4_side plate, 5_lower die, 6_first cylinder, 7_die plate, 71_spool, 72_slide frame, 73_link, 74_connection plate, 75_guide post, 76_pallet, 77_spring, 8_motor, 81_lead screw, 82_push block, 83_connection block, 84_push plate, 85_linkage plate, 9_feed plate, 901_rack, 91_feed block, 92_gear, 93_grab block, 94_feed box, 95_hanger plate, 96_slide rail, 97_welder, 10_slide bar, 101_guide sleeve, 110_discharge plate, 111_push plate, 112_second cylinder, 113_feed frame, 12_limit plate, 121_torsion spring, 122_stopper.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

Example 1

An integrated punching and welding machine for hoops, as shown in fig. 1-9, comprises a bottom frame 1, a table plate 11, a discharging plate 110, a top plate 2, a supporting plate 21, an upper die 3, a lower die 5, a first cylinder 6, a template 7, a holding component, a pushing component, a transposition component, a feeding component and a welding component, wherein two table plates 11 are connected to the left side and the right side of the top of the bottom frame 1, the discharging plate 110 is connected to the top of the right table plate 11, semicircular bulges are arranged on the left table plate 11, two rectangular gaps are arranged on the right table plate 11, a plurality of supporting plates 21 are connected to the front side and the rear side of the top of the bottom frame 1, a top plate 2 is connected between the supporting plates 21 on the two sides, an upper die 3 is connected to the bottom of the top plate 2, the upper die 3 is used for processing the unformed hoops, the chassis 1 is connected with first cylinder 6 around both sides, be connected with bed die 5 between the output shaft of the first cylinder 6 of both sides, first cylinder 6 is used for driving bed die 5 to one side motion of mould 3 upward, template 7 has all been placed to bed die 5 top left and right sides, template 7 and bed die 5 cooperate with last mould 3 together with the punching press of unshaped staple bolt, be provided with the holding assembly that is used for holding template 7 in the middle of the table 11 bottom, table 11 bottom one side is provided with the pushing component that is used for promoting unshaped staple bolt, be provided with the transposition subassembly on the push pedal 84, both sides are provided with around the chassis 1 and are used for transporting the reinforcing plate to the last welded material loading subassembly of staple bolt, be provided with the welding assembly that is used for welding the reinforcing plate on the staple bolt on the backup pad 21.

As shown in fig. 1, 3 and 4, the holding assembly comprises a sliding column 71, a sliding frame 72, a connecting column 73, a connecting plate 74, guide posts 75, a supporting plate 76 and springs 77, wherein four sliding columns 71 are connected to the bottom of the template 7, the four sliding columns 71 penetrate through the lower die 5 to be connected with the sliding frame 72, the connecting columns 73 are connected between the sliding frames 72 on the left side and the right side, the template 7, the sliding columns 71, the sliding frames 72 and the connecting columns 73 are connected to form a whole and slide on the lower die 5, the connecting plates 74 are connected to the left side and the right side of the bottom of the table 11, two guide posts 75 are connected between the connecting plates 74 on the left side and the right side, the supporting plate 76 is connected to the supporting plate 76 in a sliding manner on the guide posts 75, and the springs 77 are connected between the supporting plate 76 and the connecting plates 74.

As shown in fig. 1, fig. 4, fig. 5 and fig. 6, the pushing assembly comprises a motor 8, a screw rod 81, a pushing block 82, a connecting block 83, a pushing plate 84 and a linkage plate 85, the top of the table plate 11 is slidably connected with the pushing plate 84, the bottom of the pushing plate 84 is connected with two pushing blocks 82, the two pushing blocks 82 penetrate through two rectangular gaps on the table plate 11, the bottom of the table plate 11 is connected with the motor 8 and the connecting block 83, the screw rod 81 is connected with the output shaft of the motor 8 in a rotating mode, the bottom of the table plate 11 is slidably connected with the linkage plate 85, the linkage plate 85 is fixedly connected with the pushing blocks 82, the pushing plates 84 and the linkage plate 85 simultaneously slide left and right on the table plate 11, and the screw rod 81 and the linkage plate 85 are in threaded connection, and the pushing blocks 82 are in contact with the supporting plate 76.

As shown in fig. 1 and 7, the transposition assembly comprises a slide bar 10 and a guide sleeve 101, the guide sleeves 101 are connected to the front side and the rear side of the push plate 84, the guide sleeves 101 on the two sides are both connected with the slide bar 10 in a sliding manner, a guide groove is formed in the slide bar 10, and the guide sleeve 101 can extrude the slide bar 10 to rotate through the guide groove.

As shown in fig. 1, 7 and 8, the material loading subassembly is including curb plate 4, loading board 9, rack 901, loading piece 91, gear 92, grab piece 93 and feed box 94, both sides all are connected with curb plate 4 around chassis 1, curb plate 4 top is connected with loading board 9 and feed box 94, feed box 94 is used for placing the reinforcing plate, loading board 9 top is provided with rack 901, slide bar 10 is connected with loading board 9 rotation, slide bar 10 left end passes loading board 9 and connects loading piece 91, loading piece 91 one side rotation is connected with gear 92, one side of gear 92 is connected with grabs the piece 93, grab the piece 93 and be used for blocking the reinforcing plate and grasp the reinforcing plate, gear 92 and rack 901 meshing.

As shown in fig. 1, 8 and 9, the welding assembly comprises a hanging plate 95, a sliding rail 96 and a welding machine 97, wherein the hanging plate 95 is connected between the supporting plates 21 in the middle of the front side and the rear side in a sliding manner, the hanging plate 95 can slide up and down along the supporting plates 21, the left side and the right side of the bottom of the hanging plate 95 are respectively connected with the sliding rail 96, the two welding machines 97 are respectively connected on the sliding rails 96 on the two sides in a sliding manner, the welding machine 97 is used for welding the reinforcing plate on the anchor ear along the sliding rails 96 in an up-down sliding adjustment position.

When the anchor ear is required to be punched and welded, the unshaped anchor ear required to be punched is placed on the blanking plate 110, the reinforcing plate required to be welded is placed in the upper material box 94, the unshaped anchor ear is pushed to the right to the template 7, because the template 7 can slide up and down at the top of the lower die 5, the supporting plate 76 is required to support the connecting column 73 to enable the template 7 to be flush with the blanking plate 110, the unshaped anchor ear can be pushed to the right to the template 7, after the unshaped anchor ear is placed on the template 7, the first air cylinder 6 is started, the output shaft of the first air cylinder 6 drives the lower die 5 to move upwards, the lower die 5 is attached to the template 7 and drives the template 7 to continue to be close to the upper die 3 for extrusion, after the unshaped anchor ear is punched, the output shaft of the first air cylinder 6 drives the lower die 5 to move downwards, the template 7, the sliding column 71, the sliding frame 72 and the connecting column 73 slide downwards under the action of gravity, the connecting column 73 is contacted with the supporting plate 76, at this time, the motor 8 is restarted, the output shaft of the motor 8 drives the screw rod 81 to rotate, the screw rod 81 is connected with the linkage plate 85 through threads, the screw rod 81 rotates to enable the linkage plate 85 to move leftwards, the linkage plate 85 moves leftwards to drive the push block 82 connected with the screw rod 81 to move leftwards, the push block 82 drives the push plate 84 and the guide sleeve 101 to move leftwards, the push block 82 is firstly contacted with the supporting plate 76 and drives the supporting plate 76 to move leftwards because the push block 82 is longer than the push plate 84 in length, at this time, the spring 77 stretches, the supporting plate 76 is not contacted with the connecting column 73 after being moved leftwards, the sliding column 71, the sliding frame 72, the connecting column 73, the template 7 and the punched anchor ear on the template 7 drop downwards under the action of gravity, at this time, the template 7 is contacted with the lower die 5 and is flush with the table 11 on the left side, the punched anchor ear falls on the circular protrusion of the table 11, the push plate 84 moves leftwards to push the punched anchor ear to the left welding component, the push block 82, the push plate 84 and the guide sleeve 101 move leftwards, the guide sleeve 101 extrudes the slide bar 10 to rotate through a guide groove on the slide bar 10, the slide bar 10 rotates to drive the feeding block 91, the gear 92 and the grabbing block 93 to rotate together by taking the slide bar 10 as a circle center, when the feeding block 91 rotates to be close to 90 degrees, the rack 901 is contacted with the gear 92, at the moment, the gear 92 continuously moves to enable the gear 92 and the grabbing block 93 to rotate 180 degrees by taking the gear 92 as the circle center, the feeding block 91 continuously drives the gear 92 and the grabbing block 93 to rotate 90 degrees by taking the slide bar 10 as the circle center, after the rotation is finished, the grabbing block 93 clamps a reinforcing plate on the feeding box 94 to grab the reinforcing plate, and then an output shaft of the motor 8 is controlled to reversely rotate, the push block 82, the push plate 84 and the guide sleeve 101 move rightwards under the action of the motor 8 to restore to the original position, the supporting plate 76 moves rightwards under the action of the tension force of the spring 77 to restore to the original position, the supporting plate 76 moves rightwards to press the connecting column 73 to move upwards, the connecting column 73 drives the template 7, the sliding column 71 and the sliding frame 72 to move upwards until the template 7 is flush with the blanking plate 110, the guide sleeve 101 presses the guide groove on the sliding rod 10 when moving rightwards to drive the sliding rod 10 to reversely rotate and reset, and when the sliding rod 10 reversely rotates and resets, the feeding block 91, the gear 92 and the grabbing block 93 can be driven to reversely rotate and reset by 180 degrees, the grabbing block 93 reversely rotates by 180 degrees to place the reinforcing plate on the hoop, and then the welding machine 97 is operated to weld the frame reinforcing plate on the hoop.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 10 and 11, the device further comprises a limiting component, wherein the limiting component comprises a limiting plate 12, a torsion spring 121 and a limiting block 122, the limiting blocks 122 are connected to one sides, far away from each other, of the templates 7 on the front side and the rear side, the limiting blocks 122 are rotatably connected with the limiting plate 12, the limiting plate 12 is used for fixing the anchor ear so that the anchor ear cannot deviate from the position during punching, the torsion spring 121 is connected between the limiting block 122 and the limiting plate 12, and the torsion spring 121 is used for restoring the limiting plate 12 to the original position.

The limiting plate 12 is arranged on the template 7, the position of the anchor ear can be limited, the anchor ear cannot deviate from the position during punching, the push plate 84 drives the punched anchor ear to move rightwards after punching, the anchor ear moves rightwards to drive the limiting plate 12 to rotate and paste in the template 7, at the moment, the torsion spring 121 compresses, and after the punched anchor ear leaves the limiting plate 12, the elastic force of the torsion spring 121 enables the limiting plate 12 to recover to the original position.

As shown in fig. 1, fig. 12 and fig. 13, the device further comprises a storage component, the storage component comprises a discharging plate 110, a pushing plate 111, a second cylinder 112 and a material frame 113, the top of the table plate 11 is connected with the discharging plate 110, the top of the discharging plate 110 is slidably connected with the pushing plate 111, the bottom of the discharging plate 110 is connected with the second cylinder 112, an output shaft of the second cylinder 112 is connected with the pushing plate 111, and front and rear sides of the top of the discharging plate 110 are both connected with the material frame 113.

Be provided with material frame 113 on blowing board 110, leave the space between material frame 113 and the blowing board 110, this space just can hold a preformed staple bolt, at first, can pile up the staple bolt that waits to process and place in both sides material frame 113, the staple bolt of lower side is arranged in the space between material frame 113 and blowing board 110, when needs add the staple bolt, start second cylinder 112, the telescopic link of second cylinder 112 promotes blowing board 110 left motion with the not right ejecting of the not punching press profiled staple bolt of lower side in the material frame 113 to template 7 on, thereby realize the interpolation to the staple bolt.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related arts are included in the scope of the present invention.

Claims (8)

1. The utility model provides an integrated punching press welding machine that staple bolt was used, including chassis (1), table (11), blowing board (110), roof (2), backup pad (21), chassis (1) top left and right sides is connected with two table (11), right side table (11) top is connected with blowing board (110), semicircular bulge has on table (11) on the left side, it has the rectangle breach to open on table (11) on the right side, both sides are connected with a plurality of backup pads (21) around chassis (1) top, be connected with roof (2) between backup pad (21) of both sides, a serial communication port, still including last mould (3), lower mould (5), first cylinder (6), template (7), hold in the subassembly, pushing component, material loading subassembly and welding component, roof (2) bottom is connected with last mould (3), both sides all are connected with first cylinder (6) around chassis (1), be connected with lower mould (5) between the output shaft of first cylinder (6) of both sides, template (11) are all placed on the left and right sides of lower mould (5) top, be provided with template (11) bottom one side of pushing component (84), be provided with the bottom of holding component (84) and be used for holding in the shaping of one side of holding component, be provided with on chassis (1) and be used for transporting the reinforcing plate to the last welded material loading subassembly of staple bolt, be provided with the welding subassembly that is used for welding the reinforcing plate on the staple bolt on backup pad (21).

2. The integrated punching and welding machine for the anchor ear according to claim 1, wherein the holding assembly comprises a sliding column (71), a sliding frame (72), a connecting column (73), a connecting plate (74), guide columns (75), a supporting plate (76) and springs (77), four sliding columns (71) are connected to the bottom of the template (7), the four sliding columns (71) penetrate through the lower die (5) to be connected with the sliding frame (72), the connecting columns (73) are connected between the sliding frames (72) on the left side and the right side, the connecting plates (74) on the left side and the right side of the bottom of the table plate (11) are connected, two guide columns (75) are connected between the connecting plates (74) on the left side and the right side, the supporting plate (76) is connected with the supporting plate (76) in a sliding mode, and the springs (77) are connected between the supporting plate (76) and the connecting plates (74).

3. The integrated punching and welding machine for the anchor ear according to claim 2, wherein the pushing assembly comprises a motor (8), a screw rod (81), a push block (82), a connecting block (83), a push plate (84) and a linkage plate (85), the top of the table plate (11) is slidably connected with the push plate (84), the bottom of the push plate (84) is connected with the push block (82), the push block (82) penetrates through a rectangular notch on the table plate (11), the bottom of the table plate (11) is connected with the motor (8) and the connecting block (83), the screw rod (81) is connected with the connecting block (83) in a rotating mode on an output shaft of the motor (8), the bottom of the table plate (11) is slidably connected with the linkage plate (85), the linkage plate (85) is fixedly connected with the push block (82), and the screw rod (81) is in threaded connection with the linkage plate (85), and the push block (82) is in contact with the supporting plate (76).

4. The integrated punching and welding machine for the anchor ear according to claim 3, wherein the transposition assembly comprises a sliding rod (10) and a guide sleeve (101), the guide sleeves (101) are connected to the front side and the rear side of the push plate (84), the guide sleeves (101) on the two sides are connected with the sliding rod (10) in a sliding mode, a guide groove is formed in the sliding rod (10), and the guide sleeve (101) can extrude the sliding rod (10) to rotate through the guide groove.

5. The integrated stamping and welding machine for the anchor ear of claim 4, wherein the feeding assembly comprises a side plate (4), a feeding plate (9), racks (901), feeding blocks (91), gears (92), grabbing blocks (93) and feeding boxes (94), the front side and the rear side of the underframe (1) are respectively connected with the side plate (4), the tops of the side plates (4) are connected with the feeding plate (9) and the feeding boxes (94), racks (901) are arranged at the tops of the feeding plate (9), sliding rods (10) are rotatably connected with the feeding plate (9), the left ends of the sliding rods (10) penetrate through the feeding plate (9) to be connected with the feeding blocks (91), one sides of the feeding blocks (91) are rotatably connected with gears (92), one sides of the gears (92) are connected with the grabbing blocks (93), and the gears (92) can be meshed with the racks (901).

6. The integrated punching and welding machine for the anchor ear according to claim 5, wherein the welding assembly comprises a hanging plate (95), a sliding rail (96) and a welding machine (97), the hanging plate (95) is connected between the supporting plates (21) on the front side and the rear side in a sliding mode, the sliding rail (96) is connected on the left side and the right side of the bottom of the hanging plate (95), and the two welding machines (97) are connected on the sliding rails (96) on the two sides in a sliding mode.

7. The integrated stamping and welding machine for the anchor ear of claim 6, further comprising a limiting assembly, wherein the limiting assembly comprises a limiting plate (12), a torsion spring (121) and a limiting block (122), the limiting blocks (122) are connected to one sides, far away from each other, of the templates (7) on the front side and the rear side, the limiting block (122) is rotatably connected with the limiting plate (12), and the torsion spring (121) is connected between the limiting block (122) and the limiting plate (12).

8. The integrated stamping and welding machine for the anchor ear of claim 7, further comprising a storage component, wherein the storage component comprises a discharging plate (110), a pushing plate (111), a second air cylinder (112) and a material frame (113), the top of the table plate (11) is connected with the discharging plate (110), the top of the discharging plate (110) is slidably connected with the pushing plate (111), the bottom of the discharging plate (110) is connected with the second air cylinder (112), an output shaft of the second air cylinder (112) is connected with the pushing plate (111), and the front side and the rear side of the top of the discharging plate (110) are both connected with the material frame (113).

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